about
Identification of arginine- and lysine-methylation in the proteome of Saccharomyces cerevisiae and its functional implicationsProteomic Validation of Transcript Isoforms, Including Those Assembled from RNA-Seq Data.High throughput protein-protein interaction data: clues for the architecture of protein complexes.The Interactorium: visualising proteins, complexes and interaction networks in a virtual 3-D cell.Tools to covisualize and coanalyze proteomic data with genomes and transcriptomes: validation of genes and alternative mRNA splicing.Children with islet autoimmunity and enterovirus infection demonstrate a distinct cytokine profileTranscriptome and network analyses in Saccharomyces cerevisiae reveal that amphotericin B and lactoferrin synergy disrupt metal homeostasis and stress response.Small RNA interactome of pathogenic E. coli revealed through crosslinking of RNase E.The methylproteome and the intracellular methylation network.Identification of differentiation-stage specific markers that define the ex vivo osteoblastic phenotype.PTMOracle: A Cytoscape App for Covisualizing and Coanalyzing Post-Translational Modifications in Protein Interaction Networks.Synergy and antagonism between iron chelators and antifungal drugs in Cryptococcus.Online resources for the molecular contextualization of disease.A multidimensional matrix for systems biology research and its application to interaction networks.Investigating the Network Basis of Negative Genetic Interactions in Saccharomyces cerevisiae with Integrated Biological Networks and Triplet Motif Analysis.Does the primary site really matter? Profiling mucinous ovarian cancers of uncertain primary origin (MO-CUP) to personalise treatment and inform the design of clinical trialsProteins Deleterious on Overexpression Are Associated with High Intrinsic Disorder, Specific Interaction Domains, and Low AbundanceHigher abundance of enterovirus A species in the gut of children with islet autoimmunitySurface accessibility of protein post-translational modificationsAre protein complexes made of cores, modules and attachments?Protein-protein interactions and disease: use of S. cerevisiae as a model systemDifferent Pathways Mediate Amphotericin-Lactoferrin Drug Synergy in Cryptococcus and SaccharomycesVisualizing Post-Translational Modifications in Protein Interaction Networks Using PTMOracleSystems-based approaches enable identification of gene targets which improve the flavour profile of low-ethanol wine yeast strainsKnockout of the Hmt1p Arginine Methyltransferase in Saccharomyces cerevisiae Leads to the Dysregulation of Phosphate-associated Genes and ProcessesCross-linking Mass Spectrometry Analysis of the Yeast Nucleus Reveals Extensive Protein-Protein Interactions Not Detected by Systematic Two-Hybrid or Affinity Purification-Mass Spectrometry
P50
Q21267196-A1700560-34F1-4243-A1EF-55E428E2BD7EQ30949221-3BFC702B-5323-4F0F-9AFE-9ADE98D37ED2Q33387079-F3EF118C-8A34-4BCC-81A1-0803866C9E51Q35006154-D0DE145A-1088-424C-AFBD-FAFF8651959FQ35024624-765A3EE4-EB71-4B79-AFF9-AD3916797849Q35976580-FC0876F0-B784-43D1-833D-FE67FD8EF480Q37581711-534181B6-CAA9-4013-819A-026CAB703361Q37618005-BBD90DEE-91D3-4B4A-A3AB-278655401DFCQ37975976-67F78D1D-7D25-49D8-A988-A03BBEA07688Q38306053-637B352E-AE4C-407B-8FFD-AB4D2A72C534Q38871698-D98998DD-FA46-4FB1-A89D-73843EEF1D96Q40594515-E9D48740-7430-4DDA-900A-F3F432CC0389Q44593066-93596689-3F9E-4448-9EA3-9BDEAF9B854AQ44681936-5F4BE9EC-20C9-4DA1-A645-4CACA35E94F7Q49383069-D4A926E6-9A96-4D6B-9BAF-2DF93F9B36ADQ57163930-46C367B1-E8ED-413E-8FF6-BC97570CDD28Q59098947-E91C7AFF-F6FD-465B-93F9-3BCACF8439BFQ61797025-E38F3A85-44CB-4C56-BC70-9750CF58E25EQ80145256-BFCB0C63-E9BD-4A0E-9320-A1A00D80FF13Q80445550-BD487A75-06D5-4D70-B2B0-17646EC2623AQ80458685-15F5D3BF-C242-4528-8032-84667D7535B2Q90836786-4C3AA4B7-EBF8-49D5-BA3F-6BA4401F8EB3Q91090868-812E7B68-F43F-46BB-BDF6-EC9705F22891Q91107426-BDB14665-0CED-4DC7-89EC-CD9A082C8036Q91392715-752935D0-58AE-4BBA-A308-5F645941B6EEQ92083898-D5BD3779-6A48-4729-9016-C6495982C1C5
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Chi Nam Ignatius Pang
@ast
Chi Nam Ignatius Pang
@en
Chi Nam Ignatius Pang
@es
Chi Nam Ignatius Pang
@nl
Chi Nam Ignatius Pang
@sl
type
label
Chi Nam Ignatius Pang
@ast
Chi Nam Ignatius Pang
@en
Chi Nam Ignatius Pang
@es
Chi Nam Ignatius Pang
@nl
Chi Nam Ignatius Pang
@sl
prefLabel
Chi Nam Ignatius Pang
@ast
Chi Nam Ignatius Pang
@en
Chi Nam Ignatius Pang
@es
Chi Nam Ignatius Pang
@nl
Chi Nam Ignatius Pang
@sl
P106
P1153
16319477200
P31
P496
0000-0001-9703-5741